Means for altering telephone operation



May 8, 1962 R. R. BELL ET AL MEANS FOR ALTERING TELEPHONE OPERATION Filed July 14, 1958 2 .'Sheets--SheetI 1 2 Sheets-Sheet 2 R. R. BELL ET AL MEANS FOR ALTERING TELEPHONE OPERATION May 8, 1962 Filed July 14, 1958 3,033,941 MEANS FOR ALTEG TELEPHONE PERA'HON Robert R. Bell, 606 W. Wisconsin Ave., and Cari O. Biend, 3073 S. Chase Ave., both of Niilwaukee, Wis. Filed July 14, 1958, Ser. No. 748,259 9 Claims. (Cl. 179-89) Our invention relates to a new and novel means for altering the operation of telephones to thereby increase their etfectiveness.

The telephone today has become virtually a necessity as a means of communication, particularly in business and industry. The usual manner of signaling the person called or call-receiver frequently becomes an intrusion of privacy and busy people such as business executives may wish that they could eliminate all but truly essential telephone calls. To entrust this matter to the discretion of another person such as a secretary is not always satisfactory however. Frequently, the person initiating the telephone call or call-initiator is capable of deciding whether answering the call would be regarded as essential.

Our system permits a call-receiver to alter at will the normal signaling of his telephone so that, while so altered, he will receive no calling signals such as the conventional ringing bell, but instead will receive a signal only if the call-initiator decides that his message is truly important enough to warrant an interruption While the call-receivers telephone is so altered, the call-initiator will hear a special and distinctive signal indicating that the call-receiver does not Wish to be intruded upon unless it is absolutely essential. If the telephone of the callinitiator is equipped with a suitable complementary device, the call-initiator can then decide Whether to transmit the special signal which will cause the call-receiver to be signaled. Call-initiators having telephones not so equipped would be unable to intrude until the call-receiver restores normal telephone operation.

With our device, telephones may be altered in such a manner that busy people are permitted to work without undesired interruptions, but at the same time, are able to receive essential incoming calls. Our device eliminates the discretion of a third party, such as a secretary, in putting through essential telephone calls and substitutes the discretion of the caller who may often be in the position to know whether or not his call is essential. Our device also eliminates the inconvenience to others, as well as' immediate benelit upon installation of the system in existing circuits. With the passing of time and the familiarity acquired through use of the system, even greaterl advantages would accrue. For example, repeated use of circuits embodying our device which would induce brevity of conversations because repeated calls by a call-initiator to a call-receiver having a telephone equipped with our system would tend to indicate the relative activity at the call-receiving end of the line. Further, unessential calls would be actually deferred because if the call-initiator is aware of the fact that the call receiver is extremely busy at the moment, he will drop calls that actually need not be made or could be easily made at a later time. In addition, there will be less telephone tie-up from busy lines with a corresponding increase in telephone availability.

Another very practical advantage which would become 3,633,941 Patented May s, i962x apparent as soon as the call receiver acquired the habit of disconnecting his bell circuit would be the avoidance of the all too frequent embarrassing telephone question situation. Frequently, a call-receiver is not at liberty to speak openly in the presence of others. With the bell ringing circuit disconnected, the chance of a call from a call-initiator having questions best answered at a time when the call receiver is alone is decreased, because the call-initiator could force himself on the call-receiver only if his telephone was equipped with a circuit restoring device, and then only with the full knowledge that the call-` restorer has someone with him or is otherwise preoccupied.

Perhaps the greatest advantage resulting from use of our system is one which is manifested less openly but which actually results in a greater benelit to telephone users. This benelit is the indirect creation of greater overall -business etiiciency due to improved useage of the telephone. The telephone is a very etlic'ient and moneysaving business device when used intelligently but it can be a nuisance and crutch if used indiscriminately. Since `our system indicates to the call-initiator the relative avail-v Another object is the provision of an altered telephonex system which permits a call-initiator to be apprised of the fact that the person called does not wish to be interrupted except for absolutely essential calls.

Another object is the provision of an altered telephonev system whereby a call-initiator who receives an indication that the call-receiver does not wish to be disturbed at this time except for essential calls may nonetheless break through the call shutout if his instrument is equipped with a suitable complementary device for interrupting the shutout imposed by the call-receiver.

Another object is the provision of a telephone system in which a call-receivers signaling device may be disconnected at will by the call-receiver for periods up to andbeyond one hour, i

Another object is the provision of a novel telephone system in which a circuit, such as a bell ringing circuit, may be disconnected for periods of time up to one hour or more by means of a timing device. f

Another object is the provision of a novel timer for maintaining a circuit, such as a bell ringing circuit, disconnected based upon a capacitor discharge principle whereby disconnections for periods of time up to one hour or more may be maintained.

Yet another object of our invention is the provisioncall shutout set up by the call-receiver, and will auto-- matically restore the shutout at the end of the call.

Gur invention is illustrated more or less diagrammatically in the accompanying drawings, wherein:

Y FIGURE 1 is a block schematic diagram of a system for altering a call-receiver telephone circuit to preclude reception of all calls except those emanating from a telephone equipped with a circuit interruptor;

FIGURE 2 is a modification of the system shown in FIGURE l wherein certain functions have been combined in order to simplify the circuitry and take advantage of component parts; and

FIGURE 3 is a detailed schematic diagram of the circuits used in the system illustrated in FIGURES l and 2.

Referring now to FIGURE l, one method of implementing our inventioniszshown in block form. A-standard telephone instrument having a conventional bell signaling circuithas been' m'odied so as to bring one of the bell wires Yrout through the connecting cord, the other bell wire being ,connected within the instrument to a line wire, R'; lFor purposes of clarity 'and description, we have indicated some lines with lettersrwhich may correspond to colors. For example, Y would be yellow, G green, R red and O orange. `The incoming telephone line' G is; connectedto a switch A which may break the'telep'hone' bellcircuit' at AN, leaving the telephone line Wires G, R, connected: tothe instrumenh'and simultaneously connect' theVA bell circuit to contact AA, and the telephone line wire G, to thecontac't designated BA.

For example, switch A-B could be a toggleV switch, ajlever switch, or a remotely controlled-relay which could be controlled by a timer controlled switching device, contained in abox Vand indicated in the drawings diagrammaticallyes unit'` a. Y When switch A-B is in the position shownand a ringing signal isreceived over the incoming. line, the instrument belldoesnot ring, but instead a` ringing signal sensing unitV b, actuates a ringrelay switch Q making v contactat-'QA which turns on a distinctive busy-signalgen erator unit f. This distinctive signal is fed back into theline through contact BAYto indicate that the receivingV partysftcle'phone-bellfor signaling devicehas been dis` connected because he doesv not wish to be disturbed unless'vitislabsolutely essential; ln this case, the calling party' must' have an instrument equipped with a remote ring signal generator'unit g'with which he can generate.v

and send'a'signal which -will vbe received by unit efto `therebyclose contacts AB `and'ABA tov restore the bellcircuiti Unity e` is al remote-ring-incomirig-signal sensing circuit.

During the time that the bell in the baseV of the tele; phone? instrument 10 has beeny disconnected, the ringing signallha's. continueditobe received because the line has noti effectively' bridged in a manner equivalent to answering the telephone, and, therefore, the ring-cut# off-trelay atthe'centraloicehas not been actuated. Consequently,if the callinitiators telephone is equipped with av remote' ring signal generator unit g, whichhas' been actuated; the conventional ringing signal now operates thebell inthe telephone lil, and' if the receiving party is presenthe canv answer' thetelephone in the normal manner. Answering the telephone bridges the line with a' low! impedance which actuates the ring-cutlo relay intheicentral office and the bell thereupon stops-ringing. This-is sensed byunit` b which disconnects'l the remainder Vof the apparatus to await the next call.

, Our systemV will function on= the succeeding call inexactlyf theisame manner providedtswitch A remains thrownl to: contact During this time, the'receivingfpartycan' also makeout'- going calls inv the' normal manner without' laltering the functions of the telephone.

Diagrammatically represented at g is.v ay remote-ringsignalgenerator unit. This generator is actuated bypush button PB which reactivates the signaling'circuit of the'4 calllreceiver. Thus, when al call-initiator hears the' distinctive'busy-signal of the call-receiver, the initiator may, at'his discretion, still break through the call. shutout by pushing his own button PB toV thereby enable his call to operate.z the' bell signaling circuit in, the call-receiverfs` telephone.

From a functional standpoint, the operations outlinedY in FIGURE l may be implemented as follows: Switch Av--IBy could be a relay having several contacts which is Vcontrolledb'y'an electronic timing circuit. The user could thereby set the device in advan for a predetermined period of timer in which minimumv interruption Vwas desired; At the" end of that predetermined time, the telephonesi'gnaling circuit'would return to normal operation even if the user forgot to restore the switching device t'o normal operation'.

Unit b might be a suitable relay circuit actuated by the incoming ringing signal and could include provisions for holding the relay during standard intervals between ringing pulses. A ve second delay should be adequate for example.

The distinctive busy-signal generator unit f could consist of any apparatus capable of ytransmitting a distinctive tone or signal over theline. For example, we might employ an electronic oscillator capable of generating a tone of suicient strength to be readily heard by the calling party, and this tone might even be interrupted at a rate of two or three times per second in order to give the effect of the well known busy-signal. The pitch of the tone should diter from the standard busy-signal so ,thatV it is readily distinguishable. VThis signal is coupled to the line in a manner which' does not draw DLC. from the line or Votherwise act` to bridge the line in such a Way to actuate the ring-cutoif"relay at the telephone central oflice; This. assures that the ringing signal will continue to be received and can be used to actuate the local telephone bell or other signaling device if the special remote-ring signal is received by unit e. The entire apparatus could be made'to function equally well if the ringcutoi`f relay had been actuated, but this wouldv then require an additional suitable power circuit with which to aetuate the localV telephone' bell when reconnected by unit e, and a4 revision of the relay holding circuit in unitV b.

The remote-ring incoming-signal sensing-unit e senses the signaling circuit; restoring signal generated by the callers unit g when the call-initiator wishes to interrupt the call-receiver; The nature of this signal is circumscrbed andfdeterminedby the parameters and characteristics of the telephone line and'the related equipment. A major requirement is that unit e mustV not be actuated by'thev effects of thev standard ringing signal or by speaking, shouting, Whistling, etc., into the telephone of the callainitiator, or byv random line noise or switching transients'. Conversely, unit e must be actuated only by a special signal generated by the remote-ring signal generator unitg. Consequently, the special signal should not resemble the regularringing signal or normal voice frequencies or sounds which could' be emitted by the call-initiator'. For this reason, we have used frequencies near'the upper-most limits of the range of frequencies transmitted by the usual telephone circuits without undue attention. Frequencies on the order of 2500 to 2800 cycles' are satisfactory though they need not be restricted to such a range.

To minimize the eiects of random line noise andswitching transients upon unit e, as well as to minimize the eieots of sounds transmitted by the mouthpiece of the call-initiator, we have found it desirable to restrict the band' of frequencies introduced into unit e by means of a band-pass filter, or peaking coil orresonant circuit. Since even theV random line noise in this limitedL range of frequencies in the pass-band'can have an equivalent effective'value of .l volt R.M.S. or more, we have found it desirable to limit the sensitivity of unit e to require at least" .l5 R.M1S. equivalent Vof special signal to be received before contactsl AB and ABA will close.

Similarly, because of normal line and circuit attentuation, we have found it desirable to introduce into the line atthe sending end, by the special signal generator unit b, approximately 2V v. R.M.S. equivalent value, although lesser values will work satisfactorily if distances are not as great. Cross-talk effectv of this signal level is not objectionable because of the frequency employed and lesser' levels virtually eliminate any` such effect.

Unit c, therefore, may consistV of a resonant tilter circuit.' tuned',.for example, to 2.8kc., followed by amplifier and relay operating circuits for closing'contacts AB4 and ABA to re-estaolish the local bell circuit.

Unit g may consist of an electronic generator circuit, and amplifiers ifrequired, for introducing' an' alternating s current of the same frequency, 2.8 kc., to the telephone line at an impedance of approximately 150 ohms, employing capacitative coupling. Y

Referring now to FIGURE 2, we have shown a modification of my invention in which units f and g have been combined, and unit f performs a double function. That is, it generates the above described busy-signal and also when button PB is depressed, generates. the special remote-ring actuating signal.

As an additional feature, we have found it practical to transmit the distinctive busy-signal frequency of unit f intermittently by switching it on and olf by a relay circuit d operating at, say two or three times a second. This distinctive interrupted tone helps to identify it as` a busy signal since similar interrupting technique is standard practice in most telephone installations for signifying a line in use. Of course, in this instance, the frequency of the tone is markedly different from the conventional busysignal and indicates to those familiar with the system that the called party does not wish to be intruded upon unless essential. The use of interrupter relay d permits unit e to be connected to the line only during those intervals when unit f is disconnected thereby removing any effect unit f might have on the performance of unit e, with a consequent improvement in the reliability of operation.

A further feature illustrated in FIGURE 2 is the provision of a relay unit c which discontinues the busy-signal from unit f during the time in which each regular ringing pulse is received, the busy signal being sent out only between the regular ringing pulses thereby emphasizing to the call-initiator that the phone of the party called can still be signaled by the continuing ringing pulses if the calling party sends the necessary additional signal.

A circuit for the diagrammatic illustration of FIGURES 1 and 2 including an electronic circuit for controlling switch A is shown in FGURE 3. In this gure, the units of FIGURES l and '2 are designated across the top and along the lower right hand side.

Unit a. T mer Controlled Switching Device This circuit is entirely electronic, consisting of an electric relay which performs the switching function. This relay is closed (actuated) at the startof the timed period, and opened at-the end of the timed period, and the timing is reliably performed, for intervals up to one hour and longer, by a unique transistorized capacitor discharge circuit which makes use of several unrelated characteristics of standard manufactured components, in pro-per combination, to provide unusually accurate time intervals and, at the end of the timed interval, relatively sudden collapse of the otherwise constant relay holding current. In essence, the major purpose of the relay is to disconnect the normal signaling bell circuit, contacts A, AN, for the duration or" the timed interval, and simultaneously to connect the line voltage, green +48 v. D.C.

wire, to the remainder of the device through contacts B, BA, for use in units a through g as a power source and to provide the necessary path for the signaling functions.

Capacitor C2 is normally connected continuously across the 48 v. D.C. telephone line through resistor R6 and crystal-diode rectifier RE2 through contacts H, G; C, CN; BN, B; and DN, D. This keeps the capacitor fully charged and ready for use in the capacitor-discharge timing circuit, but more important, keeps the capacitor fully formed so that its internal resistance is extremely high. For

example, itmay exceed 50 megohms when voltage has dropped from 48 to 40 volts, and is still higher at lower voltages. R6 prevents capacitor C2 from eectively bridging the line to A.C. ringing currents, and RE2 eiectively disconnects the charged capacitor from the line when the telephone is in use and line voltage drops to relatively low values, such as 5-10 volts.

When the timer starting lever 26 is depressed, capacitor C2 is instead temporarily connected 'acrossV the 45 volt bat- 1 ing TR1 non-conducting. Therefore, there is no voltage drop through R2, and so the base of TR2 remains biased positive with respect to its emitter (the base current being limited by its internal resistance and that of R4 plus R3), thereby making TR2 conducting. Relay RY1-is therefore also actuated by the battery at the same time, through R133, R8, coil RY1, TR2, R5 and contacts EF, MP. Thereby, the relay a. Disconnects the telephone bell circuit, contacts A, AN;

b. Connects the green (48 v. D.C.) line-wire to the remainder of the apparatus, contacts B, BA;

c. Establishes a circuit to connect (when the starting lever is released) the positive capacitor terminal of C2 to the moving arm of R1-contacts H, G; C; CA; the negative capacitor terminal being permanently connected to the base of TR1 through RE1; and

d. Holds the negative battery terminal connected to theV 0.V. D. C. line as long as the relay is closed (contacts DA, D; which parallel contacts MP).

When the starting lever 20 is released, contacts NM open, removing the short-circuit between the base and emitter of TR1, and contacts HG close, thereby placing the anode of RE1 at 45 v. negative potential with respect to the moving armof R1 by means of a path through contacts C, CA. The resulting voltage drop across the high back-resistance of non-conducting RE1 and the high base-emitter resistance of non-conducting TR1 holds the base negative with respect to the emitter, and therefore TR1 remains non-conducting and RY1 remains closed.

C2 is now shunted by R2 and R9 inseries, but effectively isolated from the remainder of the circuit by the very high back-resistance of silicon diode RE1 plus the relatively high base-emitter back-resistance of reverse-biased non-conducting TR1 transistor. Thus, effectively, C2 discharges through timer resistances R2 plus R9, and the latter can be calibrated almost linearly in intervals of time. If the arm of R1 were set at TR1 emitter potential, TR1 would never become suiciently conducting to develop a voltage drop through R3 which would shut off TR2 and y open relay RY1, since the base of TR1 must be made positive with respect to'its emitter potential to cause TR1 conduction. Even then, because the tlow of a minute base current through RE1 results in a voltage drop which tends to bias the base negatively, the arm of R1 must be anywhere from 3 to 4 volts positive, or more, with respect to TR1 emitter potential, to assure relay drop-out when the capacitor C2 is virtually discharged.

As capacitor C2 becomes nearly discharged and TR1 base potential rises toward and above emitter potential, and also as a result of the current amplification of TR1, the last several seconds of capacitor C2 discharge result in fairly rapid increasing voltage drop through R3. Because of the amplification of TR2, and as its base potential drops to its emitter potential, the relay holding current is even more suddenly cut-ott` to end the timing cycle. Thus, even after intervals of one hour, the time required for decay ofrelay holding current may be measured in seconds. Therefore, there is no danger of jarring the timing relay open near the end of the time period, since the holding current does not decrease as the capacitor voltage decreases, and the timer circuit is substantially immune to electrical and mechanical disturbances. It is virtually free from wear since the only moving parts are the startstop lever switch, the relay contacts and armature which act only at the start and the' end ofthe timed interval,

- andthe time-set potentiometer whichneed not be moved Z'niilliampere'relay holding current-l, through RE.;` This small currentV drain causes line voltage to drop to about 451/2416 volts. RE3 protects the battery from small re verse currentsv which would quicklyruin'it', and also assures that even if the line voltagev drops further, throughiuse ofthe telephone or otherwise, thetimer will continue to function and the voltage variations across R1 will be negligible. considerable period of time is therefore exceedingly small and battery life correspondingly greatly extendedl Should it lbe desired to inactivate 4the timer before the preset time has elapsed,` thereby re-establishing the normal telephone signaling function, itis only necessary to move the lever switch 20 to the stop`position momentarily, -for' this opens contacts EF breaking the relay coil circuit, andthe relay drops outthusopening contacts B, BA which had supplied relay holding current from the line through contacts Q, QN. Contacts DA, D are also opened and this disconnects the battery. so itwill not continue to.A supply current to any of the associated circuitry, for this would also shorten its life.

Alternately, unit a'could consist of a conventional electric clock motor. Since such devices are well known in thel art and their function well understood, further eX- planation or illustration is not thought necessary.

Unil'b. Ringing SignatSensingy Y Y Capacitor C3 is intended to `couple AC. ringingsignalsi A.C. superimposed upon about'46 v. D.C. fora duration of about 2 seconds) the line voltage v aries fromv about ON'.' instantaneous potential to about 9tl'v., instantaneous (and vice versa) at ringing signal frequency.

Assuming, at any given instant, that the line voltage is increasing to 90V., capacitor C3 isrbeing charged to nearly this potential, since RE5 is conducting, and the resistance drop through L, is small and-its reactancenearly as low at ringing frequency. As linevoltage decreases from Y90 v;, the nominal 90 v; charge on C3 places its negative terminal at a potential negative to the D.V. D.C. line wire, and R135 ceasestoV conduct. Since the cathode ofv REG is thereby being made negative withrespect tothe O.V. D.CL line, to which its anode is con-V nected by the low impedance of C4, RE begins to conduct and to charge C4 from the' charge contained in C3. This Battery drain inno'rrnal operation over any C4 charge accumulates to about 50 volts in 2 seconds'.

Relay RY2 closes at' l2 volts, or about. l/ second after thetirst ringing pulse begins, and the large capacity of C4' holds this relay closed for about 5 `seconds until the next pulse is received. Thus, relay RY2 closes virtuallyv at the start of the tirst pulse of the ringing signal and stays closed until the ringing signalV has ceased (the latter being caused by either the call-initiator hanging-up to discontinue his call, or by the call-receiver lifting his handset from thecradle which bridges the line and actuates the'ring-cut out relay atthe central odice), thereby assuring for the identical duration ottime that contacts Q, QA and R, RA remain closed to carry out the other functionsof the device. Contacts Q, QA Vfeed all line voltages and any desired incoming special remote-ringl from short-circuiting these two' signals, since its inductive reactance to their frequencies is several thousand ohms. L1 also serves this yfunction -for the other components in units c, d e, f and'g which are connected to terminal RA, Unit c.` BusySgnalCutour during Ringing Pulse The previously mentioned function of this optional unit is to discontinue the special busy'signal during the interval' in which the incoming ringing pulse is lbeing received, on

the assumption that this may lbe of additional value in emphasizingto the call-initiator that the ringing signal has not been discontinued and, therefore, notwithstanding the special Abusy-signal, the called party could still answer the call if hisfvbellwere made to ring. Y

FIGURE 3 shows switch SWZwhich may be used to remove unit c from the circuit, should this be considered desirable; with SW2 in the on position, unit c is fed line voltage and incoming ringing signal by a path through `contacts B, BA;R, RA; and ACN, AC. Resistance R10 isofl very high value, so it places negligible D.C. load on the line, but it forms a voltage divider with the coil of the D.C. relay RY3 which thereby prevents C5 from charging to full line voltage. C5 is of relativelylarge capacity and presents a relatively low impedanceto ringing sgnalvoltages. Thus,-when a ringingpulse is received, the anode of R137 spends most of eachA cycle at-a potential'which is positive withrespect to the O.V, D.C. line, and on increasing portionsof the cycle, andas long as the anode of REq is positive with respect' to the positive terminal of C6, it. charges C6 with sufficient current to hold D.C. relayv RYgclosed'` for the duration of the ringing pulse.

Therefore, contacts S, SN are opened during the ringingfpulse's and no current is supplied to unit d for intermittently connecting thebusy-signal to the line. However, thisaction is initiatedv between ringing pulses at which time RY3 is open andrcontactsS, SN are closed.

Unit d When SW2 is turnedito'thev on position actuating unit c, one set of contacts of SWZshort circuits R12. Between ringing pulses 48' v. D.C. is applied through R13 to C8 which charges until.D.C.' Vrelay RYgcloses, disconnecting contacts U, UN'and removing the charging current. When suiiicient charge'on C8 has beenv dissipated, 'RY4 opens, and the cycleis ready to; repeat itself. A snap action is desirable and one way of providing this for all RY., contacts isas'follows.v

The armature of RY.,v is held open by a small xed magnet until more thannormal actuating current is flowing. When the armature begins to rnove, it leaves. the stronger area of magneticveld, allowing: the high actuatingV current' to snap` the armature against the pole piece. Whenthe armature opens, the magnet pulls it to a fully open position, causing the contacts tomake a full-pressure low-resistancecontact. This snap actionvof the electrical contacts preventsthearmature from idling at a midway position where contacts U, UN are touching with a high resistance contact which reduces the coil current and stops the armatureV fromV movingY further. When RY, is actuated, contacts U, UA shunt CS with a resistor, R14, that] acts to decrease the discharge time required to open RY.,t which would otherwise stay closed much longer than it 'was open. By adjusting Rlsvand C8, for the time the relay ond. When RY.;V is closed, contacts T, TA connect the Y busy-signal (generated by unit f) to the telephone line through QA, Q and BA, Bg'whenA RY4- is open, contacts T, TN connect the line to the input of unit e so that any incoming remote-ring signal may be utilized. This reciprocating action prevents any busy-signal output'from enteringunite input and possibly adversely aiectingY this circuits operation.

The above relayaction also takes place when SW2 is thrown to the off position, with the exception that this action continues during the time a ringing pulse is being received, the call-initiator hearing the ringing pulses with intermittent busy-signal superimposed. Also, when SW2 is ofi R12 is added to unit d, as is C7. This is to virtually eliminate the eifects of A.C. ringing signal upon the timing interval of RY2 operation. C7, of large capacity, charges through R12 and maintains a relatively constant voltage as a source of power to R13, C9 and RY1 even when individual cycles of ringing pulses swing the SN end of R12 above and below average C7 potential at its positive terminal. Since the average value of the ringing signal voltage is about 46 volts, this also tends to keep C7 charged to this value during ringing pulses, less the drain caused by the relay circuit. Obviously, if it is decided that SW2 could be left permanently in either position, this switch could be omitted along with the components which would not be utilized. Long term eectiveness of operation balanced against cost of components would help decide this question.

Unit e. "Remote-Ring Signal Sensing Contacts T, TN feed, to unit e input capacitor C9, the D.C. line voltage, ringing signal, switching transients (at start and end of ringing pulses), random line noise, and, if being received, the 2.8 kc. remote-ring signal. C9 is a D.C. isolation capacitor, as is C11, and they present a medium impedance path to the 2.8 kc. signal, and a proportionately higher impedance to lower frequencies, particularly regular ringing frequencies. L2, C10 comprise a parallel resonant circuit tuned to 2.8 kc., having reasonable Q, and thereby peaking signals at this frequency. TR9 and associated circuitry comprise a common-emitter transistor amplier stage with a voltage gain of about i60 at 2.8 kc. Emitter by-pass capacitor C12 is purposefully small, to permit current feedback in this stage by means of emitter resistor R12, thereby considerably reducing gain at lower frequencies. Capacitor C12 bypasses higher frequencies between base and emitter. Therefore, the frequency response at .the output-capacitor C13, shows a very sharp peak at 2.8 kc., with voltage response at 2 kc. and 4 kc. beingdown about 100 times as compared with a 2.8 kc. signal fed into C9. The output from C13 is fed to a common-collector transistor stage to provide low impedance output for charging capacitor C16 with half-waves of 2.8 kc. signal which have been rectiiied by RE9. Capacitor C16 is coupled to the low impedance base-emitter input of power transistor TR which was selected for its low collector-emitter resistance when conducting. Sucient charge on C16 causes TR5 to conduct, thereby actuating relay RY5. A 2.18 kc. signal of about .l5 v. RMS. equivalent value introduced to C9 will cause the relay to close. Much additional sensitivity could be obtained by increasing the values of C9 and C11- retuning C as required-and by reducing R21. However, this is not recommended as switching transients and random line noise may actuate RY5. R26 presents a slight bias to TR5 input in order to maintain cut-ofi even with small charges on C accumulated through rectiiication of the above mentioned extraneous random voltages. C17 prevents RY5 from closing as a result of any short duration transients charging C16 to a level which might cause TR1, to conduct instantaneously. C12 acts as a sink to maintain relatively steady D.C. voltage at the arm of R21 in spite of the A.C. ringing pulse excursions.

When the presence of a 2.8 kc. signal causes RY 5 to begin to close, contact ADA connects with AD in a makebefore-break sequence which applies about 22' volts, reduced from line voltage by R27, to the relay coil, assuring its complete closure. ABA which re-establish the telephone signaling (bell) circuit, and opens contacts AC, ACN which remove power from units c, d, e, f and g, discontinuing their operation. Contacts AC, ACA help to discharge C12 and so hasten This closes contacts A8,.

the decay of the busy-signal generated by units f, g which would otherwise remain for several seconds.

The busy-signal has now stopped, and the caller hears only the ringing signal, indicating that the bell (or other signaling device) of the called telephone is now being signaled. At this time RY5 is held closed by line voltage fed through R27 and contacts R, RA of RY2, and therefore the signaling (bell) circuit will remain re-established by AB, ABA as long as RY2 is actuated, i.e., as long as the ringing signal continues, and for about 5 seconds after the last pulse, when the charge on C4 has virtually been dissipated permitting RY2 to open. Thus, when either the caller discontinues his call, or the called party answers his telephone, RY2 opens, RY5 follows, and the device returns to starting condition, ready to repeat the above sequence upon receipt of a subsequent ringing signal followed by the remote-ring signal if one should be sent by the call-initiator. Where no special signal is received, RY5 does not close, the bell does not ring, the busy-signal continues until the caller discontinues his call; when the ringing signal ceases, RY2 opens, and power is removed from contact RA and units c, d, e, f and g of the device.

Units f, g. Busy Signal Generator and Remote Ring Signal Generator When RY2 closes upon receiving the first pulse of an incoming ringingsignal, line voltage is applied through R,

D.C. voltage even when A C. plus D C. ringing pulses This stabilized are introduced to the input of R24. D C. voltage is then applied through contacts WN, W to to the generator unit f, g-with the return circuit through TR7 oscillates in what could be called a Colpitts type circuit, C22 and C23 being proportioned to supply the feedback, and their series capacitance tuning L9. The output is fed through C21 to transistor amplifier stage TR6, and the outputV of this stage through C29 to the impedancematching output transformer, T1, which is coupled to the line through C19. This coupling proceeds through TA, T; QA, Q; and BA, B when the intermittent busysignal is being generated, the interrupting being performed by contacts TA, T. The signal level on the line is about 2 v. R.M.S. equivalent, at a frequency of about 900 C.P.S.

The remote-ring signal is normally generated only when the telephone is being used to place a call to another user whose telephone is similarly equipped and who has temporarily disconnected his signaling (bell) circuit which is indicated by a busy-signal generated at his telephone. Since the callers telephone is now in use, the line voltage has dropped to approximately 5-10 volts; Therefore, the remote-ring push button 30 may also be used to connect the 45 v. battery to unit f, g -to supply power, through R11, WA, W and YA, Y. R11 may be adjusted for desired 2.8 kc. output signal level. Note that XA, X by-passes the contacts TA, T and QA, Q on relays RY4 and RY2, inasmuch as these relays have not been actuated. Also, note that L2, of relatively low inductance, has been paralleled with L3 through VA, V. Thus, L2, having lower impedance, determines the frequency of operation which is now` higher, and this is tuned to 2.8 kc. by adjusting the series sum of C22 and C29, keeping their individual values proportioned for best feedback. R31 and R32 can be proportioned to make the oscillator frequency virtually independent of supply voltage over a considerable voltage range, although the collector-emitter voltage rating of TR7 must not be exceeded. This will assure reliable remote-ring operation over the life of the battery.

Output capacitor C19 serves several functions. It does not pass D C., and therefore does not permit the output l l Winding of T1 to bridge the line and operate the ring-cutoli relay at the central oce. So, neither does this winding cause reduction of thev line voltage which is being used as' a D.C`. power source. The relativelyy low value of C19k oifersk a. reactance of several thousandl ohms to vringing currents, and therefore has negligible eiect in this respect; Yet, it oriers suiciently low impedance to, the.

busy-signal yand a lower impedance tothe remote-ring signal generatedA in unit f, g-Coupling both to the line,

satisfactorily:

The total D.C. load on Vthe linefor operating all theV relays and the` transistorcircuitswhichmay be in use at any one time, is so low. that the central-office` ringcut-oilV relay is not actuated,` permitting latert use ofthe continuing ringing signal*V for ringingthe local signalingbell. i l

While we have shown and described an embodiment ofour invention, it Will be understood that the diagrammatic and schematic illustrations and description of opera-V tion are intended to be illustrative only .andl the scope of o the invention should be limited only by the scope of the hereinafter appended claims. Y

- We claim:

l. In combination in a telephone system having aV ring-cut-oirelayy at a central location, means for temporariiy disabling a primary signaling-circuit associated with a receiversuch as a telephone atA a iirst station without actuating the ring-cut-off relay, meansfor' generating a distinctive busy-signal. at the first station uponreceiptof conventional ringingvoltlage, means for transmitting the distinctivei busy-signal to a second Y station, and means for .re-establishingy the temporarily disabled primary signalingv circuit after receipt of the distinctiver busy-signal Vincluding generating means for producing anv additional signal aty the second station and meansv for transmitting theradditional signal to the first station.forcouuteracting l2 necting a primary signaling circuit of a. telephone for a predetermined period. oftime, said predetermined period being controlled by'anelectric timer, said timer having a capacitor discharging .through` a resistance which con-k trols the switching. of the contact of the electric timer, means for generating and transmitting to a second calling station upon receipt of ringing voltage a distinctive busysignal' indicating the disabled condition of the primary signaling circuit at the irst station', means for maintaining hering-cut-oi relay at the central station unactuated during generation of the distinctive busy signal, means for generating an additional signal at the second calling 4station, operable' to disconnect the disablement of the primary signaling circuit, and means for re-establishing the previously disabled telephone signaling circuit upon receipt of the additional signal. Y

7. In ay communication system,V means for disabling a primary signaling circuit in a telephone at a first station for a predetermined period of time, said meansincluding an electric timer operating on very small quantities of power drawn from the main telephone line whereby normal telephone operation is unaected, means for generating and transmitting .to a caller at a second station,

disablethey circuit for predetermined periodsof time,

the temporary Vdisablement of the primary signaling circuit.

2... In'- aY telephone system having a ring-cut-oif relayv atr a central. station, means for selectively disabling a primary Signaling circuitV iny a telephone at` a first@ station, means for generatingand transmitting to a. caller at a second station, upon. receipt of ringing voltage at the first station, a distinctive busy-signal indicating the selec-V tively disabled condition, holding means for preventing the ring-'cut-otv relay at the central'station from operating, means for producing atV the second stationV anaddil ,tional signal for counteracting the selective disablement of the primary signaling circuit and means for Vre-establishing the selectively disabled primary signaling circuit` forcontrolling a switching element inl an electric timer, l"said switching element being effective to disconnect the primary signaling'circuit from main line'voltage, means for generating and sending to a second station upon receipt of'ringing voltage at the irststation aV distinctive busy-signal indicating the disabledcondition,A means for generating and sending an additional' signal to the first station for counteracting-thedisablementof the primary signaling circuit, and means for re-establishing the previously disabled telephoneY signaling circuit responsive to ,o

the additional signal.

4. The system-of claim3 wherein the primary signaling Y circuit is a bellV circuit.

5`. The communication system ofclaim 4' wherein the Y electric timer device is aV capacitor discharging through a resistance.

6. In a communication system having a ring-cut-off relay at a central station, means for temporarily discon-YV an electric timer for maintaining the disabled condition ofthe primary signaling circuit,Y said timer beingfoperated by very small quantities of power derived fromthc main telephone line whereby normal, telephone operation is v unaffected, means. for generating and. transmitting to a second station, upon receipt of ringing voltage at the first station, a distinctive Vbusy-signal 4indicating the disabled condition at the iirst station, means for preventing actuation. of at ring-cut-ot relay lat the central office, means for generating Vadditional. Signal at the second station capableof counteracting the disablement of the primary signaling circuit, and means for ice-establishing the selectively disabled primary signalingr circuit in response to the additional signal.

9.111 a telephone system having a ring-cut-ol relay at a central station, a-call' receiving station, said call receiving station including a telephone receiver having a signaling circuit, and' a callv initiating station; ymeans for disconnecting the signaling circuit at the call receiving station, means for generating a distinctive signal in response to an incoming ringing signal without Iactuating the ringcut-o relay tothereby indicate the disconnected condition of the signaling circuit, means for transmitting the distinctive signal to the callV initiating station, and means for edectively tie-establishing the disconnected signaling circuit at the call receiving station, said re-establishing means including means for generating a signaling circuit restoring signal at the call initiating station and transmitting it to thecall receiving'fstation, and means at the call receiving station responsive to the restoring signal which eectively restores the signaling circuit.

References Cited in the tile of this patent UNITED STATES PATENTS 

